AT11110U1 - ADDRESSING METHOD FOR A LAMP - Google Patents

Abstract

Addressing method for a luminous means, wherein the luminous means are controlled by at least one operating device (1, 1 ', 1' '..) depending on commands of a central control unit (12), characterized by the following steps: -setting the operating devices (1, 1 ', 1' '..) in an addressing mode, reading the respectively in the operating device (1, 1', 1 '' ..) stored preset address (L) by the operating device (1, 1 ', 1' '. .), Causing a modulo operation by the central control unit (12), giving an operand (N) for the modulo operation, performing the modulo operation with the preset address (L) and the predetermined operand (N ) and storing the result as newly assigned address (A) of the operating device (1, 1 ', 1' '..).

Description

Austrian Patent Office AT11 110U1 2010-04-15

description

ADDRESSING METHOD FOR A LAMP

The invention relates to addressing method for a lamp according to the preamble of patent claim 1 and a lighting system with at least one lamp according to the preamble of claim 10.

TECHNICAL AREA

Such methods are used to control operating devices for lighting and are used in lighting systems to switch on and off with the aid of a central control unit and adjust the brightness. Usually, the bulbs are driven by operating devices. The operating devices are grouped together and can be controlled by one or several central control units. The term bulbs refers to both gas discharge lamps and halogen lamps or light emitting diodes (LED). Such a light source can be arranged individually or together with other light sources in a luminaire, which may also contain the operating device.

STATE OF THE ART

According to the prior art operating devices are addressed by the fact that the connection between the lamp and the operating device is interrupted. This interruption is detected by the operating device and this operating device takes over the current address to be given by the central control unit. This type of addressing requires a lot of time and effort, because during the installation of the entire lighting system each lamp must be separated. Although there are already methods for automatic address assignment, for example by random number, but in large lighting systems require a lot of time and it can lead to many duplicate addresses. The avoidance of these double addressing requires a high time and computational effort according to the known prior art.

PRESENTATION OF THE INVENTION

It is the object of the invention to provide an addressing method for a light source, wherein the bulbs are controlled by at least one operating device depending on commands of a central control unit, characterized by the following steps: putting the operating devices in an addressing mode, reading the respectively in the control unit stored preset address by the operating device, causing a modulo operation by the central control unit, wherein an operand for the modulo operation is given, performing the modulo operation with the preset address and the predetermined operand and storing the result as newly assigned Address of the operating device.

This object is achieved according to the invention for a method by the characterizing features of claims 1 and for a generic device according to the invention by the characterizing features of claim 10. Particularly advantageous embodiments of the invention are described in the subclaims.

The invention also relates to a lighting system with at least one light source, wherein the lighting means are controlled by at least one operating device depending on commands from a central control unit, and the operating devices have an address, wherein the calculation of the operating device to be assigned address due to a Modulo operation takes place.

In this way, it is possible to provide an addressing method for a lighting device, which can be carried out in a simple and fast manner. DESCRIPTION OF THE PREFERRED EMBODIMENTS [0009] The invention will be explained in more detail below with reference to the attached drawing. 1 shows an embodiment of a lighting system. FIG. 2 shows an embodiment of the structure of an inventive address. FIG. 3 shows an embodiment of the structure of an address according to the invention

Recognition of Address Conflicts FIG. 4 shows an embodiment of the structure of an address according to the invention

Avoiding Address Conflicts The invention will be explained below with reference to an exemplary embodiment of an operating device for a lighting device.

The invention will be described with reference to an embodiment of a lighting system BA with a central control unit 12, a control unit 10, via the control unit 10 to the network coupled operating devices 1, 1 ', 1 ", 1'x, 1'y and others Controllers 11, 13, 14 explained.

The present invention can be used in all types of lighting equipment. The use of very different bulbs is possible, it can be used in particular gas discharge lamps, halogen lamps or inorganic or organic light-emitting diodes.

The operating devices 1, 1 ', 1 ", 1'x, 1'y, the central control unit 12 and the control unit 10 are part of a lighting system BA.

In addition, further control devices 11, 13, 14 may be connected to the bus line 21.

The various controllers 11, 13, 14 are also referred to as actuators and can be various sensors such as motion or brightness sensors but also by a user controllable actuators such as switches, buttons or touch-sensitive screens with a user interface for lighting control.

The bus line 21 is formed as a two-wire data line, which transmits a control signal as a digital signal with a low DC voltage. For example, a data transmission according to the DALI standard is transmitted via the bus line 21. The interface circuits of the operating devices 1, T, 1 ", Tx, Ty, the central control unit 12 and the control unit 10 are capable of receiving control commands according to the DALI standard.

It should be noted that the data transmission of the control commands via the bus line 21 does not have to be wired, but they can be transmitted for example wirelessly via a radio link or via a power line communication (PLC) via the power supply network 20. Standardized transmission methods analogously to the DALI standard for wired data transmission exist for the transmission variants mentioned, wherein according to the method according to the invention a modified data transmission can take place via the same bus line 21.

The central control unit 12 can control single or multiple operating devices 1 of light sources via the bus line 21, wherein they can receive digital commands and also send them out. In the case of a corresponding switch-off command on the bus line 21, which is received and evaluated by the control unit 10, the control unit 10 can disconnect the connected operating devices 1 from the grid in order to reduce their power consumption to 0. Thereby, the operating devices 1 are transferred from the operating state to a standby state. The control unit 10 continues to monitor the bus line 21 to control commands and can save them. The network connection and network separation of the operating devices 1 from the mains supply is effected by a mains breaker 5. This network interrupter 5 may be a switch such as a semiconductor switch or a relay. The mains breaker 5 can be integrated into the control unit 10 or else be driven by a control output of the control unit 10.

The control unit 10 can control several independent network couplings and thus independent of each other operating devices 1 by it can control or has integrated several network couplings. The independent operating devices 1 can be distinguished from each other by different addresses.

The power supply of the control unit 10 and the control units 11, 13, 14 and the central control unit 12 can be done via a built-in the control unit 10 bus supply. The bus supply can feed the bus line 21 by applying a transmission according to the so-called 'active low' principle. In such a transmission is permanently a level of, for example, 12V, as long as no data is transmitted. In the case of data transmission, the level for transmitting a bit is pulled to a level below 2V, for example.

In this way, a permanent voltage is applied to the bus line 21 and thus a supply of the control units 10 and 11 via the bus line 21 is possible.

It may have the controller 10 via its own power supply, which is coupled directly to the mains supply.

The central control unit 12 can query the state of the operating devices 1 via the bus line 21. Furthermore, the central control unit 12 can also be directly configured and controlled by a user via directly connected buttons or switches, through an interface to a programming device, through a touchscreen or other adjustment options. Due to the direct control option, the user can also specify control commands, such as brightness values.

Within the lighting installation BA with at least one lighting means, the lighting means, which are controlled by at least one operating device 1, T, 1 ", 1, x, 1, y depending on commands of a central control unit 12, can have an address. The calculation of the address A to be given to the operating devices 1, 1 ', 1 ", 1'x, 1'y (also referred to as short address A) can take place on the basis of a modulo operation. Already at the time of delivery of the operating devices 1, T, 1 ", Tx, 1, Y, a preset address L can be stored in the operating devices 1, T, 1", 1, x, 1'y. However, this preset address L (also called long address L) may have been allocated for several operating devices 1, T, 1 ", 1, x, 1'y or may also be unsuitable for communication on the bus line 21. For a trouble-free and user-friendly control of the lighting system BA, it is necessary that each operating device 1, T, 1 ", Γ, Ty or each light source has a unique, only once assigned address.

The possible sequence of addressing based on a calculation based on a modulo operation will be described with reference to FIGS. 2 to 4.

2, an embodiment of the structure of an inventive transmission of an address is shown.

According to the addressing method according to the invention for a luminous means, wherein the luminous means are driven by at least one operating device 1, 1 ', 1 ", 1'x, 1'y depending on commands of a central control unit 12, the following steps are carried out: 0033] - putting the operating devices 1, T, 1 ", Tx, 1'y into an addressing mode, - reading out the preset values respectively stored in the operating device 1, T, 1", Tx, Ty

Address L by the operating device 1, T, 1 ", Tx, Ty, [0035] - causing a modulo operation by the central control unit 12, whereby an Austrian Patent Office AT11110U1 2010-04-15

Operand N is specified for the modulo operation, - carrying out the modulo operation with the preset address L and the given operand N and storing the result as newly assigned address A of the operating device 1, 1 ', 1 ", Γ , 1, y.

FIG. 3 shows an embodiment of the structure of an inventive transmission of an address for detecting address conflicts.

In a further step, the central control unit 12 will query the possible addresses A and check whether more than one operating device 1, 1 ', 1 ", 1'x, 1'y sends a response for a specific address. This method can be used to detect address conflicts.

For example, the lowest part of the integer quotient of the division L / N can be sent back. Transmission errors occur when two or more operators answer at the same time, thus overlapping the answers. If no transmission error has been detected, the central control unit 12 may cause the operating device (s) to send the next part of the preset address L and again check the response for a transmission error. This process is repeated until either a transmission error has been detected or the entire preset address L has been sent. If a transmission error has been detected, the central control unit 12 terminates this checking process and notes the address A for the step of the re-modulo operation with the preset address L but after a modified method for avoiding address conflicts. If no transmission error was detected at the end, this is not a double address. The address A is classified as valid by the control unit. By a further command, the central control unit 12 for the device with this address A ends the addressing process. Now, the checking operation for the remaining addresses A is performed according to the same method.

FIG. 4 shows an embodiment of the structure of an inventive transmission of an address for avoiding address conflicts.

According to the inventive addressing method for a lighting means, in a further step, the central control unit 12 can cause a re-modulo operation with a newly specified operand Ν 'for the modulo operation for the addresses A more than one feedback, and can on the corresponding operating devices 1, T, 1 ", Tx, Ty again carry out a modulo operation with the preset address L but according to a modified method and store the result as newly assigned address A.

According to the addressing method according to the invention for a lighting means, the central control unit 12 can also cause a re-modulo operation with the operand N for the addresses A more than one feedback in a further step, and then the corresponding operating devices 1, T , 1 ", 1, x, 1, y again carry out a modulo operation with only a part of the preset address L (ie with a changed method) and store the result as newly assigned address A. The part of the preset address L can be determined by dividing L by N.

Furthermore, the central control unit 12 the possible addresses A query and check until all possible addresses no more than one operating device 1, T, 1 ", 1, x, 1, y sends a response.

To check whether more than one operating device 1, T, 1 ", 1, x, 1, y sends a response for a specific address, the operating devices 1, T, 1", 1, x, 1, y send with the currently called address as a response at least part of their stored preset address L.

In a further step, the central control unit 12 can evaluate the responses and check for transmission errors.

The renewed modulo operation can be carried out with a newly specified operand Ν '4/8

Claims (13)

Austrian Patent Office AT11110U1 2010-04-15 den. The re-modulo operation can be performed with a changed combination of the operands L, N, Ν 'or based on an additional pre-calculation. The operating devices 1,1 ', 1 ", 1'x, 1'y can communicate according to the DALI standard. Thus, lighting system BA with at least one light source, wherein the operating devices 1,1 ', 1 ", 1'x, 1'y can be put into an addressing mode and in each of the operating device 1,1', 1 ", 1'x, 1'y stored preset address L can read. The operating devices 1, 1 ', 1 ", 1", 1'y, upon initiating a modulo operation by the central control unit 12, can perform a modulo operation with the preset address L and the predetermined operand N, and the result as newly assigned address A of the operating device 1, 1 ', 1', 1'x, 1'y store, where an operand N for the modulo operation by the central control unit 12 can be specified. The central control unit 12 can interrogate the possible addresses A and check whether more than one operating device 1, 1 ', 1', 1'x, 1'y sends a response for a specific address. Claims 1. Addressing method for a lighting means, wherein the lighting means are controlled by at least one operating device (1, 1 ', 1 ") depending on commands of a central control unit (12), characterized by the following steps: - shifting the operating devices (1 , 1 ', 1 " ..) in an addressing mode, - read the preset address (L) respectively stored in the operating device (1, 1', 1 ") by the operating device (1, 1 ', 1"). ), - causing a modulo operation by the central control unit (12), wherein an operand (N) for the modulo operation is given, - performing the modulo operation with the preset address (L) and the given operand (N) and storing the result as newly assigned address (A) of the operating device (1, 1 ', 1 "). 2. Addressing method for a lamp according to claim 1, characterized in that in a further step, the central control unit (12) queries the possible addresses (A) and checks whether more than one operating device (1,1 ', 1 "; ..) sends a response. 3. An addressing method for a light source according to claim 1 or 2, characterized in that in a further step, the central control unit (12) a re-modulo operation with a newly specified operand (Ν ') for the modulo operation for the addresses (A ) causes more than one acknowledgment, - the corresponding operating devices (1, 1 ', 1 ") again perform a modulo operation with the preset address (L) but according to a modified procedure and store the result as a newly assigned address (A) , 4. An addressing method for a light source according to claim 3, characterized in that the central control unit (12) the possible addresses (A) queried and checked until for all possible addresses no more than one operating device (1, 1 ', 1 ". .) sends a response. 5/8 Austrian Patent Office AT11110U1 2010-04-15 5. An addressing method for a lighting device according to claim 2 to 4, characterized in that for checking whether more than one operating device (1, 1 ', 1 "..) sends a response for a specific address, the operating devices (1, 1' , 1 " ..) with the currently called address as a response to send at least a portion of their stored preset address (L). 6. addressing method for a lamp according to claim 5, characterized in that in a further step, the central control unit (12) evaluates the responses and checks for transmission errors. 7. addressing method for a lamp according to claim 3 to 6, characterized in that the renewed modulo operation is performed with new default operand (Ν '). 8. An addressing method for a luminous means according to claim 3 to 7, characterized in that the renewed modulo operation is carried out with a changed combination of the operands (L, N, Ν ') or based on an additional precalculation. 9. An addressing method for a light-emitting device according to claim 1 to 8, characterized in that the operating devices (1, T, 1 "..) can communicate according to the DALI standard. 10. Lighting system (BA) with at least one luminous means, wherein the luminous means are controlled by at least one operating device (1, T, 1 ") depending on commands of a central control unit (12), and the operating devices have an address, characterized by that the calculation of the address (A) to be given to the operating device (1, T, 1 ") is due to a modulo operation. 11. Lighting installation (BA) with at least one luminous means according to claim 10, characterized in that the operating devices (1, T, 1 ") can be placed in an addressing mode and in each case in the operating device (1, T, 1 " .) stored preset address (L) can read. 12. Lighting installation (BA) with at least one light-emitting means according to claim 10 or 11, characterized in that the operating devices (1, T, 1 ") are actuated by a modulo operation by the central control unit (12), wherein an operand ( N) for the modulo operation by the central control unit (12), perform a modulo operation with the preset address (L) and the predetermined operand (N) and the result as newly assigned address (A) of the operating device (1 , T, 1 " ..). 13. Lighting system (BA) with at least one light source according to one of claims 10 to 12, characterized in that the central control unit (12) the possible addresses (A) query and check whether more than one operating device (1 , T, 1 " ..) sends a response. For this 2 sheets drawings 6/8